United States Street Light Market Overview,2030

The U.S. street lighting market has undergone a major transformation, moving away from traditional lighting systems such as incandescent, metal-halide, and high-pressure sodium lamps to energy-efficient LED and Smart Street lighting technologies. This shift is largely fueled by America’s growing commitment to sustainability, carbon reduction, and smart city development. Cities such as Los Angeles, New York, and Chicago have already completed large-scale LED retrofit programs that cut municipal electricity consumption and maintenance costs by more than 50%. For instance, in February 2022, the City of Chicago completed the Chicago Smart Lighting Program, a streetlight modernization project to replace more than 280,000 outdated streetlights with high-efficiency LED lights that have improved the quality of night-time visibility across the city and are projected to save Chicago taxpayers USD 100 million in electricity costs over the next ten years. From a cultural perspective, street lighting in the U.S. reflects societal values centered on safety, aesthetics, and environmental awareness. Well-lit streets have long symbolized community security and civic pride, playing a key role in reducing accidents and crime rates. However, modern American culture increasingly emphasizes sustainability and the preservation of natural night environments. The rise of “Dark Sky” movements in states like Arizona, Colorado, and California has encouraged cities to adopt warm-toned LEDs and shielded luminaires that minimize glare and light pollution. Urban planners and citizens are demanding lighting systems that harmonize safety, visibility, and environmental sensitivity showing how cultural values now influence infrastructure design across U.S. cities. The U.S. street lighting market operates under rigorous standards. Federal and state agencies, including the Department of Energy (DOE) and Environmental Protection Agency (EPA), establish performance benchmarks for energy efficiency, while programs like ENERGY STAR and DesignLights Consortium (DLC) certification ensure product compliance and qualify municipalities for rebates.

According to the research report ""USA Street Lighting Market Overview, 2030,"" published by Bonafide Research, the USA Street Lighting market is anticipated to grow at 3.98% CAGR from 2025 to 2030. The integration of IoT (Internet of Things) technologies, motion sensors, adaptive dimming controls, and data-driven management software is transforming ordinary streetlights into intelligent city assets. The trend toward smart infrastructure is supported by government initiatives such as the U.S. Department of Energy’s “Better Buildings” program, which promotes connected lighting solutions that enhance energy performance and reduce operational costs. Furthermore, partnerships between municipalities and private tech firms are expanding rapidly, enabling predictive maintenance and data collection that improve traffic flow, environmental monitoring, and emergency response efficiency. The impact of urbanization on the U.S. street lighting market is profound. As urban areas continue to expand and suburban regions densify, the demand for advanced lighting systems has surged. The growing number of mixed-use developments, pedestrian zones, and smart highways has increased the need for efficient, adaptable illumination. Cities like Austin, Seattle, and San Diego are integrating smart lighting systems into broader smart-city frameworks, where streetlights act as communication nodes for public Wi-Fi, surveillance, and EV charging networks. This urban expansion and digitalization have made lighting a vital component of the country’s sustainable growth model. The most disruptive technologies include connected LED luminaires with wireless control networks, Li-Fi communication capabilities using visible light for data transmission, and embedded sensors that track air quality, traffic, and public safety conditions. For instance, in the U.S., replacing a single street light with an LED equivalent can cost up to $500, including labor, while solar-integrated options add further expenses due to batteries and panels. Emerging markets such as those in Africa and Latin America struggle with these costs amid limited funding, often delaying projects.

Smart street lights have emerged as a key focus for many U.S. cities, particularly in urban areas where municipalities aim to reduce energy consumption and enhance public safety. These systems integrate LED technology with sensors and IoT connectivity, allowing lights to adjust brightness based on traffic, pedestrian activity, and ambient conditions, while also enabling remote monitoring and maintenance, which reduces operational costs. Conventional street lights, which primarily use high-pressure sodium or mercury vapor lamps, continue to be widespread in smaller towns, suburban neighborhoods, and rural regions, as they offer simplicity, reliability, and lower upfront installation costs. However, there is a gradual trend toward retrofitting these conventional systems with LED technology to achieve energy savings and meet modern efficiency standards. Hybrid street lights, which combine traditional lighting with renewable energy sources such as solar power, are gaining attention in areas where extending the electrical grid is challenging or costly. These systems provide energy independence, lower operational costs, and environmental benefits, making them suitable for parks, off-grid locations, and emerging suburban developments. Across the USA, the demand for street lighting solutions is increasingly influenced by smart city initiatives, sustainability goals, and the need to balance operational efficiency with public safety. Cities are prioritizing infrastructure that not only illuminates streets effectively but also integrates with broader urban management systems, including traffic monitoring, environmental sensors, and security applications. This has created opportunities for innovative lighting solutions that combine intelligence, adaptability, and sustainability.

The Less Than 50W segment primarily serves residential neighborhoods, pedestrian walkways, parks, and other low-traffic areas. Street lights in this category are valued for their energy efficiency and low operational costs, making them ideal for local municipalities aiming to reduce electricity consumption while maintaining safety standards. These LED fixtures provide sufficient illumination for smaller streets and pathways, replacing older high-pressure sodium lamps, which consume more energy and require frequent maintenance. The trend in this segment is driven by sustainability initiatives, as cities across the U.S. increasingly prioritize eco-friendly solutions and seek to lower carbon emissions. Moreover, the long lifespan of these lights reduces maintenance frequency, allowing municipalities to allocate resources to other infrastructure projects. The Between 50W and 150W segment is focused on urban streets, medium-traffic roads, commercial zones, and city centers, where higher illumination levels are necessary to ensure safety and visibility. This segment has seen rapid adoption due to the growing demand for brighter, energy-efficient lighting solutions that also support smart city technologies. LEDs in this wattage range can be integrated with dimming controls, motion sensors, and connectivity features that allow real-time monitoring and adaptive lighting based on traffic or pedestrian flow. Municipalities in the U.S. are increasingly investing in these smart street lights to improve public safety, optimize energy consumption, and lower maintenance costs. Additionally, commercial areas benefit from this wattage range as it ensures uniform lighting for roads, parking lots, and public spaces, enhancing both aesthetics and functionality.

In the U.S., the street lighting market is evolving rapidly, driven by federal and local initiatives aimed at energy efficiency, safety, and smart city development. For streets and roadways, municipalities across cities like New York, Los Angeles, and Chicago are aggressively replacing older high-pressure sodium and metal halide lamps with LED fixtures that offer longer lifespans, lower energy consumption, and reduced maintenance costs. Smart street lighting systems are increasingly integrated with city-wide IoT networks, allowing adaptive brightness, motion detection, and real-time monitoring, which enhances pedestrian safety, reduces light pollution, and optimizes operational efficiency. On highways, U.S. transportation departments are emphasizing durable, high-performance LED systems that maintain consistent illumination under extreme weather conditions and heavy traffic loads. Adaptive highway lighting that adjusts intensity based on traffic flow and ambient light is being adopted in major interstate corridors to improve driver visibility while reducing energy expenditure. Other end-uses, such as tunnels, bridges, parking lots, and recreational zones, are also seeing significant modernization. Tunnel lighting systems in the U.S. are engineered to provide uniform illumination for accident prevention, while bridge lighting balances safety with aesthetic appeal, highlighting architectural features. Recreational areas, pedestrian plazas, and urban parks increasingly use energy-efficient and smart-controlled lighting to enhance security and user experience while minimizing environmental impact. Federal programs and grants, such as those promoting energy-efficient public infrastructure, have accelerated the adoption of advanced lighting technologies, making the U.S. a leader in the modernization of outdoor lighting.

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Street light Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Product Type
• Smart Street Lights
• Conventional Street Lights
• Hybrid Street Lights

By Wattage Type
• Less Than 50W
• Between 50W and 150W

By End Use
• Streets & Roadways
• Highways
• Other End-uses Show more